The effects of Sinomenine on experimental arrhythmia were studied. The result showed that Sinomenine could shorten the arrhythmetic period induced by picrotoxin in rabbit and protect rat against arrhythmia induced by BaCl_2. Sinomenine was found to recover the arrhythmia induced by BaCl_2-Ach into sinus rhythm in mice, Beside these Sinomenine also showed significant antagonising to ischemic arrhythmia.

Predatory hunting is an important type of innate behavior evolutionarily conserved across the animal kingdom. It is typically composed of a set of sequential actions, including prey search, pursuit, attack, and consumption. This behavior is subject to control by the nervous system. Early studies used toads as a model to probe the neuroethology of hunting, which led to the proposal of a sensory-triggered release mechanism for hunting actions. More recent studies have used genetically-trackable zebrafish and rodents and have made breakthrough discoveries in the neuroethology and neurocircuits underlying this behavior. Here, we review the sophisticated neurocircuitry involved in hunting and summarize the detailed mechanism for the circuitry to encode various aspects of hunting neuroethology, including sensory processing, sensorimotor transformation, motivation, and sequential encoding of hunting actions. We also discuss the overlapping brain circuits for hunting and feeding and point out the limitations of current studies. We propose that hunting is an ideal behavioral paradigm in which to study the neuroethology of motivated behaviors, which may shed new light on epidemic disorders, including binge-eating, obesity, and obsessive-compulsive disorders.
Animals ; Zebrafish ; Hunting ; Predatory Behavior/physiology* ; Neurons/physiology* ; Motivation